RU2021123351A - IMAGE PREDICTION METHOD, EQUIPMENT, SYSTEM, IMAGE PREDICTION DEVICE AND INFORMATION STORAGE MEDIUM - Google Patents

Claims (63)

1. An image prediction method, comprising the steps of: getting a split mode for the current node, the current node being an image block in a coding tree unit in the current image; determining whether the current node satisfies the first condition based on the split mode for the current node and the dimensions of the specified current node; And performing, upon determining that the current node satisfies the first condition, intra-frame prediction of all coding blocks belonging to the current node to obtain predictors of all coding blocks belonging to the current node. 2. The method of claim 1, further comprising, upon determining that the current block does not satisfy the first condition, the steps of: determining, based on the partitioning mode of the current node and the size of the specified current node, whether the current node satisfies the second condition; And performing, when determining that the current node satisfies the second condition, using the same prediction mode, predicting all coding blocks belonging to the current node to obtain a predictor of all coding blocks belonging to the current node, wherein the prediction mode is an intra prediction mode, or interframe prediction mode. 3. The method of claim 2, wherein the step of determining, based on the split mode of the current node and the size of said current node, whether the current node satisfies the second condition, comprises a sub-step of: determining, based on the splitting mode for the current node, the size of the specified current node and the current chroma format (Chroma format), whether the current node satisfies the second condition. 4. The method according to claim 2 or 3, wherein the step of performing, using the same prediction mode, predicting all coding blocks belonging to the current node, comprises sub-steps of: parsing a prediction mode status flag for the current node; And performing, when the prediction mode status flag has a first value, inter-prediction of all coding blocks belonging to the current node; or, when the prediction mode status flag has a second value, intra-frame prediction of all coding blocks belonging to the current node. 5. The method according to any one of paragraphs. 2 to 4, in which the step of inter-prediction of all coding blocks belonging to the current node contains sub-steps in which: breaking the current node in the splitting mode of the specified current node to obtain a descendant node with respect to the specified current node; determining, based on the size of a descendant node of said current node, a partitioning mode not valid for said descendant node of said current node; determining a block splitting policy at the specified descendant node of the specified current node based on the specified splitting mode not valid for the specified descendant node of the current node; And obtain, in accordance with the block splitting policy, in the descendant node of the current node, the coding block corresponding to the descendant node of the current node, and perform inter-frame prediction of the corresponding coding block. 6. The method according to any one of paragraphs. 1 to 4, in which the step of intra-frame prediction of all coding blocks belonging to the current node contains sub-steps in which: splitting, in an appropriate splitting mode, a luminance block located at the current node to obtain a splitting luminance block, and performing intra-frame prediction on the resulting splitted luminance blocks; and using a chrominance block located at the current node as a chrominance coding block, and performing intra-frame prediction of said chrominance coding block. 7. The method according to any one of paragraphs. 1-6, in which the size of the current node is determined based on the size of the coding tree node corresponding to the current node and the partitioning mode used to obtain the current node. 8. An image prediction method, comprising the steps of: getting a split mode for the current node, wherein said current node is an image block in a coding tree unit in the current image; determining whether, based on the split mode for the current node and the sizes of the specified current node, whether the current node satisfies the predetermined condition, and performing, when determining that the current node satisfies the predetermined condition, using the same prediction mode, predicting all coding blocks belonging to the current node to obtain predictors for all coding blocks belonging to the current node, and the prediction mode is an intra-frame prediction mode or inter-frame prediction mode. 9. The method of claim 8, wherein the step of determining, based on the split mode for the current node and the sizes of said current node, whether the current node satisfies a given condition, comprises a sub-step of: determining, based on the splitting mode for the current node, the size of the specified current node, and the current chroma format (Chroma format), whether the current node satisfies a predetermined condition. 10. The method according to claim 8 or 9, wherein the step of performing, using the same prediction mode, predicting all coding blocks belonging to the current node, comprises sub-steps of: parsing a prediction mode status flag for the current node; And performing, when the prediction mode status flag has a first value, inter-prediction of all coding blocks belonging to the current node; or, when the prediction mode status flag has a second value, intra-frame prediction of all coding blocks belonging to the current node. 11. The method according to any one of paragraphs. 8 to 10, in which the step of inter-prediction of all coding blocks belonging to the current node contains sub-steps in which: breaking the current node in the splitting mode of the specified current node to obtain a child node of the specified current node; determining, based on the size of the obtained child node of the specified current node, a partitioning mode not valid for the specified child node of the current node; determining a block splitting policy at the specified descendant node of the specified current node based on the specified splitting mode not valid for the specified descendant node of the current node; And obtain, in accordance with the block splitting policy in the child node of the current node, a coding block corresponding to the specified child node of the current node, and perform inter-frame prediction of the corresponding coding block. 12. The method according to any one of paragraphs. 8-11, wherein the size of the current node is determined based on the size of the coding tree node corresponding to the specified current node and the partitioning mode used to obtain the specified current node. 13. An image prediction method, comprising the steps of: determining, based on the size of the current node and the prediction mode of the specified current node, the partition mode is not valid for the current node, and the specified current node is an image block in a coding tree unit in the current image; determining a block splitting policy for the current node based on a splitting mode not valid for the current node; And obtain, in accordance with the block splitting policy of the current node, the coding block corresponding to the specified current node, and perform inter-frame prediction of the corresponding coding block. 14. The method of claim 13, wherein the step of determining, based on the size of the current node and the prediction mode for the specified current node, a partitioning mode that is not valid for the current node, comprises the sub-steps of: determining whether only the inter-frame prediction mode is used to predict all coding blocks belonging to the current node, and determining whether the number of samples of the luminance block of the current node 32 is equal; And it is determined, when determining that only the inter prediction mode is used to predict all coding blocks belonging to the current node, and determining that the number of samples of the luminance block of the current node is 32, that the splitting mode of the binary tree scheme is a splitting mode not valid for the current node. 15. The method according to claim 13 or 14, wherein the step of determining, based on the size of the current node and the prediction mode of the specified current node, a split mode that is not valid for the current node, contains sub-steps, on which: determining whether only the inter-picture prediction mode is used to predict all coding blocks belonging to the current node, and determining whether the number of samples of the luminance block of the current node is equal to 64; And it is determined, when determining that only the inter-frame prediction mode is used to predict all coding blocks belonging to the current node, and determining that the number of samples of the current node's luminance block is 64, that the ternary tree partitioning mode is a partitioning mode not valid for the current node. 16. The method according to any one of paragraphs. 13-15, wherein the size of the current node is determined based on the size of the coding tree node corresponding to the specified current node and the partitioning mode used to obtain the specified current node. 17. Image prediction equipment, comprising: a receiving module for obtaining a split mode of the current node, wherein the current node is an image block in a coding tree unit in the current image; a decision module for determining, based on the splitting mode for the current node and the dimensions of the specified current node, whether the current node satisfies the first condition; And an executing module for performing, when it is determined that the current node satisfies the first condition, intra-frame prediction of all coding blocks belonging to the current node to obtain predictors for all coding blocks belonging to the current node. 18. Image prediction equipment, comprising: a receiving module for obtaining a split mode of the current node, wherein said current node is an image block in a coding tree unit in the current image; a decision module, configured to determine, based on the partitioning mode of the current node and the sizes of the specified current node, whether the current node satisfies a given condition; And an executing module for performing, when determining that the current node satisfies the predetermined condition, using the same prediction mode, predicting all coding blocks belonging to the current node to obtain predictors of all coding blocks belonging to the current node, wherein the prediction mode is intra-prediction mode or inter-prediction mode. 19. Image prediction equipment, comprising: a solver for determining, based on the size of the current node and the prediction mode of the specified current node, a partitioning mode not valid for the current node, wherein the specified current node is an image block in a coding tree unit in the current image, wherein the solver is further configured to: determine a block splitting policy of the current node based on a splitting mode not valid for the current node; And a prediction module for obtaining, in accordance with the block splitting policy of the current node, a coding block corresponding to the specified current node, and performing inter-frame prediction of the corresponding coding block. 20. A video encoding device comprising a processor and a storage device for storing instructions that cause, when executed by the processor, the execution by the processor of the method according to any one of paragraphs. 1 - 16. 21. A video decoding device, comprising a processor and a storage device that stores instructions that cause, when executed by the processor, the processor to execute the method according to any one of paragraphs. 1 - 16. 22. An image prediction system, comprising: a video collecting device, a video encoding device according to claim 20, a video decoding device according to claim 21, and a display device, wherein the video encoding device is connected to both the video collecting device and the video decoding device, and the device the video decoder is connected to the display device. 23. A computer-readable storage medium that stores a computer program that causes, when executed by the processor, the implementation of the method according to any one of paragraphs. 1 - 16. 24. A non-volatile storage medium storing an encoded data bit stream, wherein said data bit stream is generated by dividing the current image into a plurality of nodes and contains a prediction mode status flag for the current node; and when said prediction mode status flag has a first value, performing inter-frame prediction of all coding blocks belonging to the current node; or when the prediction mode status flag has a second value, intra prediction of all coding blocks belonging to the current node is performed.